Published 12/2023
MP4 | Video: h264, 1920×1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 3.53 GB | Duration: 4h 27m
Microcontrollers, Arduino
What you’ll learn
To understand the significance of Microcontrollers and Sensors in Robots
To impart knowledge on the architecture of Arduino
To acquire knowledge on sensor basics
To understand the principles, types and applications of sensors in automation
To Integrate Sensors and actuators with Microcontroller and build an application
Requirements
None
Description
If you were interested to learn about electronic components, microcontrollers and how they are connected to get a task done in various fields like robotics, autonomous vehicles etc., then this is a great course for you. In this course we will be using Tinkercad. This is an online opensource software that has real time virtual electronic components and connections which can be simulated.Have you wondered how an anti theft alarm works or how automatic railway gate opens or an autonomous cars. These devices use microcontrollers and various sensors, in which they are integrated and programmed to perform a specific task. All the electronic components has embedded systems in it. In this course, we will cover basics of embedded systems and create various projects.If you were interested to learn about electronic components, microcontrollers and how they are connected to get a task done in various fields like robotics, autonomous vehicles etc., then this is a great course for you. In this course we will be using Tinkercad. This is an online opensource software that has real time virtual electronic components and connections which can be simulated.Have you wondered how an anti theft alarm works or how automatic railway gate opens or an autonomous cars. These devices use microcontrollers and various sensors, in which they are integrated and programmed to perform a specific task. All the electronic components has embedded systems in it. In this course, we will cover basics of embedded systems and create various projects.
Overview
Section 1: About the Program
Lecture 1 Course Introduction
Lecture 2 Course Outline
Section 2: Introduction
Lecture 3 What is an Embedded System?
Lecture 4 What is a Microcontroller?
Lecture 5 Applications of an Embedded system
Section 3: Architecture of Microcontroller
Lecture 6 Architecture of a Microcontroller
Lecture 7 Arithmetic Logic Unit (ALU)
Lecture 8 Memory
Lecture 9 Input/Output Ports, Timer/Counter & Buses
Lecture 10 Microcontroller vs. Microprocessor
Section 4: Pin Diagram and Interrupts
Lecture 11 What is a Pin Diagram of a Microcontroller?
Lecture 12 Pin Diagram of Raspberry pi
Lecture 13 Default Pins in a Microcontroller: Power Pins
Lecture 14 Default Pins: I/O Ports
Lecture 15 Communication in a Microcontroller
Lecture 16 Interrupts of a Microcontroller
Section 5: Introduction to Arduino
Lecture 17 Introduction to Arduino
Lecture 18 Arduino-Working Details & Memory
Lecture 19 Selection of a Microcontroller
Lecture 20 Introduction to Tinkercad
Lecture 21 Login Credentials
Lecture 22 Internal LED
Section 6: Electronic Components
Lecture 23 Internal LED Blinking (Push Button)
Lecture 24 External LED Blinking (Activity)
Lecture 25 Push Button
Lecture 26 Potentiometer
Lecture 27 Motors – Servo Motor
Lecture 28 Motors – Stepper
Lecture 29 Motors – DC Motor
Lecture 30 Railway Crossing
Section 7: Sensors & Measurements
Lecture 31 What is a Sensor?
Lecture 32 Types of Sensors
Lecture 33 Characteristics of Sensors
Lecture 34 Ultrasonic Sensor
Lecture 35 Light Dependent Resistor
Lecture 36 IR Sensor
Lecture 37 Accelerometer Sensor
Lecture 38 Global Positioning System
Lecture 39 Anti-Theft System
Section 8: Miscellaneous Sensors
Lecture 40 Inertial Measurement Unit
Lecture 41 Force Sensitive Resistor
Lecture 42 LIDAR
Lecture 43 Radar
Lecture 44 Tilt Sensor
Lecture 45 LCD Display
Section 9: About the Program
Lecture 46 Course Conclusion
Anyone on the field of Engineering,Anyone interested to learn basic electronics,Anyone interested to learn and program Arduino
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